Kernel Model for Precision Timekeeping

Related Links

The technical report [2], which is a revision and update of an earlier report [3], describes an engineering model for a precision clock discipline function for a generic operating system. The model is the same hybrid phase/frequecy-lock feedback loop used by ntpd, but implemented in the kernel. The code described in [2] is included in Solaris and Digital/Compaq/HP Tru64. It provides two system calls ntp_gettime() and ntp_adjtime() and can discipline the system clock with microsecond resolution. However, newer hardware and kernels with the same system calls can discipline the clock with nanosecond resolution. The new code described in [1] is in FreeBSD, Linux and Tru64. The software and documentation, including a simulator used to verify correct behavior, but not involving licensed code, is available in the nanokernel.tar.gz distribution

Ordinarily, the kernel clock discipline function is used with the NTP daemon, but could be used for other purposes. The ntptime utility program can be used to control it manually.

The kernel model also provides support for an external precision timing source, such as described in the Pulse-per-second (PPS) Signal Interfacing page. The new system calls are used by the PPSAPI interface and in turn by the PPS Clock Discipline driver (type 22) to provide synchronization limited in principle only by the accuracy and stability of the external timing source. Typical results with the PPS signal from a GPS receiver and a modern computer are in the 3 μs range.